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Two complexes of 5-phenyl-3-(pyridin-2-yl)-1,2,4-triazine (PPTA), namely (ethanol-κ
O)bis(nitrato-κ
O)[5-phenyl-3-(pyridin-2-yl-κ
N)-1,2,4-triazine-κ
N2]copper(II), [Cu(NO
3)
2(C
14H
10N
4)(C
2H
6O)] or [Cu(NO
3)
2(PPTA)(EtOH)] (
1), and bis[μ-5-phenyl-3-(pyridin-2-yl)-1,2,4-triazine]-κ
3N1:
N2,
N3;κ
3N2,
N3:
N1-bis[(nitrato-κ
O)silver(I)], [Ag
2(NO
3)
2(C
14H
10N
4)
2] or [Ag
2(NO
3)
2(μ-PPTA)
2] (
2), were prepared and characterized by elemental analysis, FT–IR spectroscopy and single-crystal X-ray diffraction. The X-ray structure analysis of
1 revealed a copper complex with square-pyramdial geometry containing two O-donor nitrate ligands along with an
N,
N′-donor PPTA ligand and one O-donor ethanol ligand. In the binuclear structure of
2, formed by the bridging of two PPTA ligands, each Ag atom has an AgN
3O environment and square-planar geometry. In addition to the four dative interactions, each Ag atom interacts with two O atoms of two nitrate ligands on adjacent complexes to complete a pseudo-octahedral geometry. Density functional theory (DFT) calculations revealed that the geometry around the Cu and Ag atoms in
1opt and
2opt (opt is optimized) for an isolated molecule is the same as the experimental results. In
1, O—H
O hydrogen bonds form
R12(4) motifs. In the crystal network of the complexes, in addition to the hydrogen bonds, there are π–π stacking interactions between the aromatic rings (phenyl, pyridine and triazine) of the ligands on adjacent complexes. The ability of the ligand and complexes
1 and
2 to interact with ten selected biomacromolecules (BRAF kinase, CatB, DNA gyrase, HDAC7, rHA, RNR, TrxR, TS, Top II and B-DNA) was investigated by docking studies. The results show that the studied compounds can interact with proteins better than doxorubicin (except for TrxR and Top II).
Supporting information
CCDC references: 1887083; 1887082
For both structures, data collection: X-AREA (Stoe & Cie, 2016); cell refinement: X-AREA (Stoe & Cie, 2016); data reduction: X-AREA (Stoe & Cie, 2016); program(s) used to solve structure: SHELXS97 (Sheldrick, 2008); program(s) used to refine structure: SHELXL2014 (Sheldrick, 2015). Molecular graphics: ORTEP-3 (Farrugia, 2012), ORTEPIII (Burnett & Johnson, 1996) and DIAMOND (Bergerhoff et al., 1996) for sv0120; ORTEP-3 (Farrugia, 2012), ORTEPIII (Burnett & Johnson, 1996) and DIAMOND (Bergerhoff, et al., 1996) for sv0187. For both structures, software used to prepare material for publication: SHELXL2014 (Sheldrick, 2015).
(Ethanol-
κO)bis(nitrato-
κO)[5-phenyl-3-(pyridin-2-yl-
κN)-1,2,4-triazine-
κN2]copper(II) (sv0120)
top
Crystal data top
[Cu(NO3)2(C14H10N4)(C2H6O)] | F(000) = 956 |
Mr = 467.89 | Dx = 1.627 Mg m−3 |
Monoclinic, P21/n | Cu Kα radiation, λ = 1.54186 Å |
a = 18.8929 (4) Å | Cell parameters from 20318 reflections |
b = 12.8744 (2) Å | θ = 4.2–70.7° |
c = 8.4047 (2) Å | µ = 2.11 mm−1 |
β = 110.904 (2)° | T = 180 K |
V = 1909.76 (7) Å3 | Block, green |
Z = 4 | 0.25 × 0.18 × 0.13 mm |
Data collection top
Stoe Stadivari diffractometer | 3519 reflections with I > 2σ(I) |
Radiation source: GeniX 3D HF Cu | Rint = 0.012 |
ω scans | θmax = 70.2°, θmin = 4.3° |
Absorption correction: multi-scan (LANA; Koziskova et al., 2016) | h = −22→22 |
Tmin = 0.443, Tmax = 0.909 | k = −15→11 |
22502 measured reflections | l = −9→10 |
3564 independent reflections | |
Refinement top
Refinement on F2 | Secondary atom site location: difference Fourier map |
Least-squares matrix: full | Hydrogen site location: mixed |
R[F2 > 2σ(F2)] = 0.028 | H atoms treated by a mixture of independent and constrained refinement |
wR(F2) = 0.078 | w = 1/[σ2(Fo2) + (0.0346P)2 + 1.5566P] where P = (Fo2 + 2Fc2)/3 |
S = 1.12 | (Δ/σ)max = 0.001 |
3564 reflections | Δρmax = 0.59 e Å−3 |
277 parameters | Δρmin = −0.33 e Å−3 |
0 restraints | Extinction correction: SHELXL2014 (Sheldrick, 2015), Fc*=kFc[1+0.001xFc2λ3/sin(2θ)]-1/4 |
Primary atom site location: structure-invariant direct methods | Extinction coefficient: 0.00030 (8) |
Special details top
Geometry. All esds (except the esd in the dihedral angle between two l.s. planes)
are estimated using the full covariance matrix. The cell esds are taken
into account individually in the estimation of esds in distances, angles
and torsion angles; correlations between esds in cell parameters are only
used when they are defined by crystal symmetry. An approximate (isotropic)
treatment of cell esds is used for estimating esds involving l.s. planes. |
Refinement. Data were collected at 180 K using a Stoe StadiVari diffractometer
equipped with a copper X-ray microsource (Cu Kα radiation) and a Dectris
Pilatus 300k detector. Intensity data were collected using ω scans.
All data were corrected for Lorentz and polarization effects. Absorption
effects were corrected based on numerical absorption corrections, in addition,
a scaling correction was applied using Stoe X-Area software. Structures were
solved by direct methods (ShelxS) and refined by full-matrix least-squares
against F2 by using ShelxL (Sheldrick, 2008). Diagrams of the
molecular structure and unit cell were created using Ortep-III and Diamond
(Farrugia, 1997, Burnett & Johnson, 1996)(Bergerhof et al., 1996).
Crystallographic data and details of the data collection and structure
refinement are listed in Table 1, selected bond lengths and angles in Table 2
and hydrogen bond geometries in Table 3. |
Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top | x | y | z | Uiso*/Ueq | |
C1 | 0.64705 (11) | 0.81082 (15) | 0.0835 (2) | 0.0286 (4) | |
H1 | 0.6909 | 0.8482 | 0.0869 | 0.034* | |
C2 | 0.57648 (12) | 0.84640 (15) | −0.0205 (3) | 0.0317 (4) | |
H2 | 0.5720 | 0.9076 | −0.0866 | 0.038* | |
C3 | 0.51282 (11) | 0.79177 (16) | −0.0267 (3) | 0.0329 (4) | |
H3 | 0.4639 | 0.8154 | −0.0961 | 0.040* | |
C4 | 0.52086 (10) | 0.70195 (15) | 0.0695 (2) | 0.0291 (4) | |
H4 | 0.4779 | 0.6622 | 0.0653 | 0.035* | |
C5 | 0.59277 (10) | 0.67196 (13) | 0.1714 (2) | 0.0230 (4) | |
C6 | 0.60741 (10) | 0.57897 (14) | 0.2810 (2) | 0.0224 (3) | |
C7 | 0.64396 (11) | 0.41872 (15) | 0.4815 (3) | 0.0299 (4) | |
H7A | 0.6562 | 0.3600 | 0.5547 | 0.036* | |
C8 | 0.56656 (10) | 0.43869 (14) | 0.3853 (2) | 0.0237 (4) | |
C9 | 0.50393 (10) | 0.37283 (14) | 0.3911 (2) | 0.0244 (4) | |
C10 | 0.51667 (11) | 0.28573 (15) | 0.4968 (2) | 0.0293 (4) | |
H10 | 0.5668 | 0.2679 | 0.5678 | 0.035* | |
C11 | 0.45628 (12) | 0.22534 (16) | 0.4981 (3) | 0.0353 (4) | |
H11 | 0.4653 | 0.1658 | 0.5693 | 0.042* | |
C12 | 0.38287 (12) | 0.25100 (17) | 0.3963 (3) | 0.0362 (5) | |
H12 | 0.3416 | 0.2095 | 0.3984 | 0.043* | |
C13 | 0.36978 (11) | 0.33728 (16) | 0.2916 (3) | 0.0339 (4) | |
H13 | 0.3194 | 0.3550 | 0.2220 | 0.041* | |
C14 | 0.42953 (11) | 0.39788 (15) | 0.2877 (2) | 0.0289 (4) | |
H14 | 0.4201 | 0.4566 | 0.2147 | 0.035* | |
N1 | 0.65537 (8) | 0.72544 (12) | 0.17933 (19) | 0.0241 (3) | |
N2 | 0.68028 (8) | 0.56070 (12) | 0.37041 (19) | 0.0240 (3) | |
N3 | 0.69957 (9) | 0.47768 (12) | 0.4742 (2) | 0.0290 (3) | |
N4 | 0.54949 (8) | 0.52139 (12) | 0.28343 (19) | 0.0237 (3) | |
Cu1 | 0.75252 (2) | 0.66284 (2) | 0.33301 (3) | 0.02318 (10) | |
N5 | 0.81044 (9) | 0.86450 (12) | 0.4174 (2) | 0.0270 (3) | |
O1 | 0.81917 (7) | 0.78373 (10) | 0.33616 (17) | 0.0283 (3) | |
O2 | 0.85819 (8) | 0.93415 (11) | 0.4465 (2) | 0.0392 (3) | |
O3 | 0.75443 (8) | 0.87134 (12) | 0.4600 (2) | 0.0403 (4) | |
N6 | 0.85967 (9) | 0.61392 (13) | 0.6347 (2) | 0.0317 (4) | |
O4 | 0.84207 (7) | 0.58606 (10) | 0.47811 (16) | 0.0274 (3) | |
O5 | 0.91350 (9) | 0.57154 (14) | 0.7429 (2) | 0.0512 (4) | |
O6 | 0.82087 (10) | 0.68236 (13) | 0.66779 (19) | 0.0449 (4) | |
O7 | 0.77363 (8) | 0.59575 (12) | 0.10796 (18) | 0.0296 (3) | |
H7 | 0.7575 (15) | 0.545 (2) | 0.078 (3) | 0.038 (7)* | |
C15 | 0.84188 (12) | 0.61248 (18) | 0.0730 (3) | 0.0364 (5) | |
H15A | 0.8649 | 0.6792 | 0.1246 | 0.044* | |
H15B | 0.8289 | 0.6179 | −0.0516 | 0.044* | |
C16 | 0.89888 (12) | 0.52694 (18) | 0.1408 (3) | 0.0449 (5) | |
H16A | 0.8772 | 0.4611 | 0.0868 | 0.067* | |
H16B | 0.9121 | 0.5213 | 0.2644 | 0.067* | |
H16C | 0.9445 | 0.5427 | 0.1156 | 0.067* | |
Atomic displacement parameters (Å2) top | U11 | U22 | U33 | U12 | U13 | U23 |
C1 | 0.0276 (9) | 0.0241 (9) | 0.0322 (10) | −0.0040 (7) | 0.0085 (8) | 0.0041 (7) |
C2 | 0.0354 (11) | 0.0248 (9) | 0.0311 (10) | 0.0002 (8) | 0.0072 (8) | 0.0067 (7) |
C3 | 0.0261 (10) | 0.0327 (10) | 0.0344 (10) | 0.0026 (8) | 0.0039 (8) | 0.0080 (8) |
C4 | 0.0211 (9) | 0.0303 (10) | 0.0333 (10) | −0.0004 (7) | 0.0066 (7) | 0.0051 (8) |
C5 | 0.0225 (8) | 0.0213 (9) | 0.0255 (9) | −0.0006 (7) | 0.0088 (7) | 0.0005 (7) |
C6 | 0.0208 (8) | 0.0223 (9) | 0.0245 (8) | 0.0014 (7) | 0.0086 (7) | 0.0003 (7) |
C7 | 0.0273 (9) | 0.0247 (9) | 0.0363 (10) | 0.0021 (7) | 0.0095 (8) | 0.0084 (8) |
C8 | 0.0248 (9) | 0.0218 (9) | 0.0263 (9) | 0.0015 (7) | 0.0113 (7) | −0.0002 (7) |
C9 | 0.0259 (9) | 0.0237 (9) | 0.0260 (9) | 0.0001 (7) | 0.0120 (7) | 0.0002 (7) |
C10 | 0.0277 (10) | 0.0283 (10) | 0.0330 (10) | 0.0024 (7) | 0.0121 (8) | 0.0055 (8) |
C11 | 0.0384 (11) | 0.0310 (10) | 0.0397 (11) | −0.0017 (8) | 0.0178 (9) | 0.0096 (9) |
C12 | 0.0317 (10) | 0.0373 (11) | 0.0426 (11) | −0.0101 (9) | 0.0171 (9) | 0.0026 (9) |
C13 | 0.0249 (10) | 0.0380 (11) | 0.0363 (11) | −0.0022 (8) | 0.0079 (8) | 0.0036 (8) |
C14 | 0.0275 (9) | 0.0288 (10) | 0.0300 (9) | 0.0001 (7) | 0.0095 (8) | 0.0049 (7) |
N1 | 0.0213 (7) | 0.0233 (7) | 0.0268 (7) | −0.0011 (6) | 0.0077 (6) | 0.0020 (6) |
N2 | 0.0209 (7) | 0.0226 (7) | 0.0281 (8) | 0.0011 (6) | 0.0082 (6) | 0.0031 (6) |
N3 | 0.0240 (8) | 0.0249 (8) | 0.0356 (9) | 0.0025 (6) | 0.0075 (7) | 0.0075 (6) |
N4 | 0.0217 (7) | 0.0225 (7) | 0.0272 (7) | 0.0002 (6) | 0.0092 (6) | 0.0024 (6) |
Cu1 | 0.01790 (15) | 0.02240 (16) | 0.02813 (16) | −0.00056 (9) | 0.00683 (11) | 0.00200 (10) |
N5 | 0.0237 (8) | 0.0232 (8) | 0.0298 (8) | 0.0011 (6) | 0.0043 (6) | 0.0022 (6) |
O1 | 0.0255 (6) | 0.0245 (7) | 0.0367 (7) | −0.0028 (5) | 0.0134 (6) | −0.0038 (5) |
O2 | 0.0358 (8) | 0.0275 (7) | 0.0482 (9) | −0.0115 (6) | 0.0075 (7) | −0.0027 (6) |
O3 | 0.0327 (8) | 0.0375 (8) | 0.0561 (9) | 0.0015 (6) | 0.0222 (7) | −0.0077 (7) |
N6 | 0.0288 (8) | 0.0335 (9) | 0.0295 (8) | 0.0024 (7) | 0.0063 (7) | −0.0002 (7) |
O4 | 0.0227 (6) | 0.0309 (7) | 0.0261 (6) | 0.0017 (5) | 0.0055 (5) | −0.0017 (5) |
O5 | 0.0453 (9) | 0.0576 (11) | 0.0338 (8) | 0.0181 (8) | −0.0065 (7) | −0.0016 (7) |
O6 | 0.0547 (10) | 0.0469 (9) | 0.0338 (8) | 0.0185 (8) | 0.0165 (7) | −0.0013 (7) |
O7 | 0.0286 (7) | 0.0289 (8) | 0.0327 (7) | −0.0031 (6) | 0.0124 (6) | −0.0049 (6) |
C15 | 0.0354 (11) | 0.0449 (12) | 0.0337 (10) | 0.0020 (9) | 0.0181 (9) | 0.0032 (9) |
C16 | 0.0343 (11) | 0.0361 (12) | 0.0633 (15) | 0.0016 (9) | 0.0164 (11) | −0.0117 (11) |
Geometric parameters (Å, º) top
C1—N1 | 1.338 (2) | C12—H12 | 0.9500 |
C1—C2 | 1.386 (3) | C13—C14 | 1.382 (3) |
C1—H1 | 0.9500 | C13—H13 | 0.9500 |
C2—C3 | 1.378 (3) | C14—H14 | 0.9500 |
C2—H2 | 0.9500 | N1—Cu1 | 1.9987 (15) |
C3—C4 | 1.388 (3) | N2—N3 | 1.345 (2) |
C3—H3 | 0.9500 | N2—Cu1 | 1.9993 (15) |
C4—C5 | 1.377 (3) | Cu1—O4 | 1.9632 (13) |
C4—H4 | 0.9500 | Cu1—O1 | 1.9962 (13) |
C5—N1 | 1.350 (2) | Cu1—O7 | 2.2407 (14) |
C5—C6 | 1.475 (2) | N5—O2 | 1.233 (2) |
C6—N4 | 1.328 (2) | N5—O3 | 1.235 (2) |
C6—N2 | 1.333 (2) | N5—O1 | 1.286 (2) |
C7—N3 | 1.315 (3) | N6—O5 | 1.224 (2) |
C7—C8 | 1.419 (3) | N6—O6 | 1.239 (2) |
C7—H7A | 0.9500 | N6—O4 | 1.288 (2) |
C8—N4 | 1.332 (2) | O7—C15 | 1.437 (2) |
C8—C9 | 1.471 (2) | O7—H7 | 0.73 (3) |
C9—C10 | 1.397 (3) | C15—C16 | 1.503 (3) |
C9—C14 | 1.401 (3) | C15—H15A | 0.9900 |
C10—C11 | 1.384 (3) | C15—H15B | 0.9900 |
C10—H10 | 0.9500 | C16—H16A | 0.9800 |
C11—C12 | 1.385 (3) | C16—H16B | 0.9800 |
C11—H11 | 0.9500 | C16—H16C | 0.9800 |
C12—C13 | 1.384 (3) | | |
| | | |
N1—C1—C2 | 122.08 (17) | C1—N1—C5 | 118.46 (15) |
N1—C1—H1 | 119.0 | C1—N1—Cu1 | 127.13 (12) |
C2—C1—H1 | 119.0 | C5—N1—Cu1 | 114.39 (12) |
C3—C2—C1 | 119.04 (18) | C6—N2—N3 | 119.49 (15) |
C3—C2—H2 | 120.5 | C6—N2—Cu1 | 114.88 (12) |
C1—C2—H2 | 120.5 | N3—N2—Cu1 | 125.62 (11) |
C2—C3—C4 | 119.38 (18) | C7—N3—N2 | 116.92 (15) |
C2—C3—H3 | 120.3 | C6—N4—C8 | 116.38 (15) |
C4—C3—H3 | 120.3 | O4—Cu1—O1 | 89.12 (5) |
C5—C4—C3 | 118.31 (17) | O4—Cu1—N1 | 173.50 (6) |
C5—C4—H4 | 120.8 | O1—Cu1—N1 | 97.10 (6) |
C3—C4—H4 | 120.8 | O4—Cu1—N2 | 93.24 (6) |
N1—C5—C4 | 122.72 (16) | O1—Cu1—N2 | 166.79 (6) |
N1—C5—C6 | 114.66 (15) | N1—Cu1—N2 | 81.13 (6) |
C4—C5—C6 | 122.62 (16) | O4—Cu1—O7 | 87.53 (5) |
N4—C6—N2 | 125.70 (16) | O1—Cu1—O7 | 90.59 (5) |
N4—C6—C5 | 119.39 (15) | N1—Cu1—O7 | 90.51 (6) |
N2—C6—C5 | 114.91 (15) | N2—Cu1—O7 | 102.49 (6) |
N3—C7—C8 | 123.13 (17) | O2—N5—O3 | 122.15 (17) |
N3—C7—H7A | 118.4 | O2—N5—O1 | 118.05 (16) |
C8—C7—H7A | 118.4 | O3—N5—O1 | 119.78 (15) |
N4—C8—C7 | 118.37 (16) | N5—O1—Cu1 | 115.95 (11) |
N4—C8—C9 | 117.97 (16) | O5—N6—O6 | 123.47 (17) |
C7—C8—C9 | 123.66 (16) | O5—N6—O4 | 118.54 (17) |
C10—C9—C14 | 119.09 (17) | O6—N6—O4 | 117.99 (15) |
C10—C9—C8 | 121.72 (16) | N6—O4—Cu1 | 110.22 (11) |
C14—C9—C8 | 119.19 (16) | C15—O7—Cu1 | 123.89 (13) |
C11—C10—C9 | 120.03 (18) | C15—O7—H7 | 111 (2) |
C11—C10—H10 | 120.0 | Cu1—O7—H7 | 117 (2) |
C9—C10—H10 | 120.0 | O7—C15—C16 | 112.74 (18) |
C10—C11—C12 | 120.53 (18) | O7—C15—H15A | 109.0 |
C10—C11—H11 | 119.7 | C16—C15—H15A | 109.0 |
C12—C11—H11 | 119.7 | O7—C15—H15B | 109.0 |
C13—C12—C11 | 119.79 (18) | C16—C15—H15B | 109.0 |
C13—C12—H12 | 120.1 | H15A—C15—H15B | 107.8 |
C11—C12—H12 | 120.1 | C15—C16—H16A | 109.5 |
C14—C13—C12 | 120.40 (19) | C15—C16—H16B | 109.5 |
C14—C13—H13 | 119.8 | H16A—C16—H16B | 109.5 |
C12—C13—H13 | 119.8 | C15—C16—H16C | 109.5 |
C13—C14—C9 | 120.15 (18) | H16A—C16—H16C | 109.5 |
C13—C14—H14 | 119.9 | H16B—C16—H16C | 109.5 |
C9—C14—H14 | 119.9 | | |
Bis[µ-5-phenyl-3-(pyridin-2-yl)-1,2,4-triazine]-
κ3N1:
N2,
N3;
N2,
N3:
N1-bis[(nitrato-
κO)silver(I)] (sv0187)
top
Crystal data top
[Ag2(NO3)2(C14H10N4)2] | F(000) = 800 |
Mr = 404.14 | Dx = 1.973 Mg m−3 |
Monoclinic, P21/c | Cu Kα radiation, λ = 1.54186 Å |
a = 6.1435 (1) Å | Cell parameters from 17682 reflections |
b = 16.2987 (4) Å | θ = 3.2–70.4° |
c = 13.9126 (3) Å | µ = 12.13 mm−1 |
β = 102.414 (2)° | T = 180 K |
V = 1360.51 (5) Å3 | Rod, yellow |
Z = 4 | 0.30 × 0.06 × 0.04 mm |
Data collection top
Stoe STADIVARI diffractometer | 2175 reflections with I > 2σ(I) |
Radiation source: microfocus | Rint = 0.023 |
ω scans | θmax = 67.9°, θmin = 4.2° |
Absorption correction: numerical [X-RED32 (Stoe & Cie, 2016) and LANA (Koziskova et al.,
2016) | h = −5→7 |
Tmin = 0.065, Tmax = 0.208 | k = −19→18 |
14066 measured reflections | l = −16→15 |
2432 independent reflections | |
Refinement top
Refinement on F2 | Primary atom site location: structure-invariant direct methods |
Least-squares matrix: full | Secondary atom site location: difference Fourier map |
R[F2 > 2σ(F2)] = 0.024 | Hydrogen site location: inferred from neighbouring sites |
wR(F2) = 0.061 | H-atom parameters constrained |
S = 1.09 | w = 1/[σ2(Fo2) + (0.0337P)2 + 0.7721P] where P = (Fo2 + 2Fc2)/3 |
2432 reflections | (Δ/σ)max = 0.002 |
208 parameters | Δρmax = 0.57 e Å−3 |
0 restraints | Δρmin = −0.47 e Å−3 |
Special details top
Geometry. All esds (except the esd in the dihedral angle between two l.s. planes)
are estimated using the full covariance matrix. The cell esds are taken
into account individually in the estimation of esds in distances, angles
and torsion angles; correlations between esds in cell parameters are only
used when they are defined by crystal symmetry. An approximate (isotropic)
treatment of cell esds is used for estimating esds involving l.s. planes. |
Refinement. Data were collected at 180 K using a Stoe StadiVari diffractometer
equipped with a copper X-ray microsource (Cu Kα radiation) and a Dectris
Pilatus 300k detector. Intensity data were collected using ω scans.
All data were corrected for Lorentz and polarization effects. Absorption
effects were corrected based on numerical absorption corrections, in addition,
a scaling correction was applied using Stoe X-Area software. Structures were
solved by direct methods (ShelxS) and refined by full-matrix least-squares
against F2 by using ShelxL (Sheldrick, 2008). Diagrams of the
molecular structure and unit cell were created using Ortep-III and Diamond
(Farrugia, 1997, Burnett & Johnson, 1996)(Bergerhof et al., 1996).
Crystallographic data and details of the data collection and structure
refinement are listed in Table 1, selected bond lengths and angles in Table 2
and hydrogen bond geometries in Table 3. |
Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top | x | y | z | Uiso*/Ueq | Occ. (<1) |
Ag1 | 0.21648 (3) | 0.50990 (2) | 0.42836 (2) | 0.04241 (9) | |
C1 | −0.1653 (4) | 0.63295 (16) | 0.32500 (19) | 0.0318 (5) | |
H1 | −0.2458 | 0.5830 | 0.3113 | 0.038* | |
C2 | −0.2712 (4) | 0.70554 (17) | 0.29117 (19) | 0.0327 (6) | |
H2 | −0.4216 | 0.7053 | 0.2556 | 0.039* | |
C3 | −0.1554 (5) | 0.77841 (17) | 0.3098 (2) | 0.0360 (6) | |
H3 | −0.2244 | 0.8291 | 0.2873 | 0.043* | |
C4 | 0.0639 (5) | 0.77619 (16) | 0.3621 (2) | 0.0346 (6) | |
H4 | 0.1479 | 0.8254 | 0.3752 | 0.041* | |
C5 | 0.1590 (4) | 0.70157 (16) | 0.39482 (19) | 0.0291 (5) | |
C6 | 0.3910 (4) | 0.69761 (15) | 0.45402 (19) | 0.0287 (5) | |
C7 | 0.7964 (4) | 0.68641 (16) | 0.55961 (18) | 0.0285 (5) | |
H7 | 0.9436 | 0.6828 | 0.5984 | 0.034* | |
C8 | 0.7006 (4) | 0.76379 (16) | 0.53618 (19) | 0.0298 (5) | |
C9 | 0.8196 (4) | 0.84045 (16) | 0.57079 (19) | 0.0312 (6) | |
C10 | 1.0486 (4) | 0.84146 (17) | 0.6121 (2) | 0.0352 (6) | |
H10 | 1.1333 | 0.7924 | 0.6149 | 0.042* | |
C11 | 1.1514 (5) | 0.91381 (18) | 0.6489 (2) | 0.0404 (7) | |
H11 | 1.3069 | 0.9143 | 0.6765 | 0.049* | |
C12 | 1.0295 (6) | 0.98521 (18) | 0.6457 (3) | 0.0483 (8) | |
H12 | 1.1013 | 1.0348 | 0.6708 | 0.058* | |
C13 | 0.8021 (6) | 0.98474 (18) | 0.6057 (3) | 0.0521 (8) | |
H13 | 0.7178 | 1.0337 | 0.6048 | 0.063* | |
C14 | 0.6980 (5) | 0.91293 (18) | 0.5671 (2) | 0.0406 (7) | |
H14 | 0.5432 | 0.9131 | 0.5380 | 0.049* | |
N1 | 0.0458 (3) | 0.62995 (13) | 0.37628 (16) | 0.0295 (5) | |
N2 | 0.4782 (4) | 0.62325 (14) | 0.47281 (17) | 0.0321 (5) | |
N3 | 0.6866 (4) | 0.61817 (13) | 0.52903 (17) | 0.0313 (5) | |
N4 | 0.4934 (3) | 0.76870 (13) | 0.48247 (15) | 0.0296 (5) | |
N5 | 0.3515 (4) | 0.59312 (15) | 0.67703 (18) | 0.0374 (5) | |
O1 | 0.3553 (4) | 0.66883 (13) | 0.6793 (2) | 0.0583 (6) | |
O2 | 0.5185 (4) | 0.55112 (14) | 0.71314 (18) | 0.0542 (6) | |
O3A | 0.1920 (5) | 0.55619 (18) | 0.6205 (3) | 0.0400 (10)* | 0.726 (9) |
O3B | 0.1548 (15) | 0.5681 (5) | 0.6709 (8) | 0.050 (3)* | 0.274 (9) |
Atomic displacement parameters (Å2) top | U11 | U22 | U33 | U12 | U13 | U23 |
Ag1 | 0.03206 (13) | 0.02377 (12) | 0.06335 (16) | −0.00061 (7) | −0.00759 (9) | 0.00302 (9) |
C1 | 0.0283 (14) | 0.0297 (13) | 0.0350 (14) | −0.0042 (10) | 0.0015 (10) | −0.0001 (10) |
C2 | 0.0255 (14) | 0.0354 (14) | 0.0341 (14) | −0.0005 (10) | 0.0001 (10) | 0.0009 (11) |
C3 | 0.0356 (16) | 0.0288 (14) | 0.0395 (15) | 0.0023 (11) | −0.0007 (11) | 0.0006 (11) |
C4 | 0.0326 (15) | 0.0254 (13) | 0.0421 (15) | −0.0030 (10) | −0.0002 (11) | −0.0010 (11) |
C5 | 0.0264 (14) | 0.0285 (13) | 0.0322 (13) | −0.0037 (9) | 0.0057 (10) | −0.0037 (10) |
C6 | 0.0246 (14) | 0.0270 (13) | 0.0340 (13) | −0.0028 (10) | 0.0057 (10) | −0.0012 (10) |
C7 | 0.0216 (13) | 0.0295 (13) | 0.0319 (13) | −0.0013 (9) | 0.0000 (10) | −0.0028 (10) |
C8 | 0.0264 (14) | 0.0323 (14) | 0.0302 (13) | −0.0018 (10) | 0.0051 (10) | −0.0006 (10) |
C9 | 0.0321 (15) | 0.0281 (14) | 0.0309 (13) | −0.0045 (10) | 0.0015 (10) | 0.0010 (10) |
C10 | 0.0302 (15) | 0.0320 (15) | 0.0417 (15) | −0.0025 (10) | 0.0043 (11) | −0.0019 (11) |
C11 | 0.0301 (16) | 0.0403 (16) | 0.0470 (17) | −0.0088 (11) | −0.0005 (12) | −0.0024 (13) |
C12 | 0.0474 (19) | 0.0279 (15) | 0.0587 (19) | −0.0101 (12) | −0.0126 (14) | 0.0005 (13) |
C13 | 0.049 (2) | 0.0266 (16) | 0.069 (2) | −0.0010 (12) | −0.0128 (15) | 0.0037 (14) |
C14 | 0.0346 (16) | 0.0301 (15) | 0.0495 (17) | −0.0013 (11) | −0.0080 (12) | 0.0029 (12) |
N1 | 0.0258 (12) | 0.0269 (11) | 0.0339 (11) | −0.0031 (8) | 0.0022 (8) | −0.0002 (9) |
N2 | 0.0232 (11) | 0.0301 (12) | 0.0401 (13) | −0.0004 (8) | 0.0002 (9) | −0.0013 (9) |
N3 | 0.0238 (12) | 0.0290 (12) | 0.0388 (12) | 0.0018 (8) | 0.0019 (9) | 0.0000 (9) |
N4 | 0.0265 (12) | 0.0282 (11) | 0.0324 (12) | −0.0012 (8) | 0.0023 (9) | −0.0013 (8) |
N5 | 0.0278 (13) | 0.0359 (14) | 0.0436 (14) | −0.0071 (9) | −0.0033 (10) | 0.0046 (10) |
O1 | 0.0455 (14) | 0.0330 (13) | 0.0866 (18) | 0.0020 (9) | −0.0073 (12) | −0.0166 (11) |
O2 | 0.0351 (12) | 0.0481 (13) | 0.0706 (15) | 0.0051 (9) | −0.0082 (10) | 0.0136 (11) |
Geometric parameters (Å, º) top
Ag1—N3i | 2.216 (2) | C8—C9 | 1.475 (4) |
Ag1—N1 | 2.264 (2) | C9—C14 | 1.393 (4) |
Ag1—N2 | 2.440 (2) | C9—C10 | 1.401 (4) |
C1—N1 | 1.340 (3) | C10—C11 | 1.383 (4) |
C1—C2 | 1.383 (4) | C11—C12 | 1.379 (4) |
C2—C3 | 1.380 (4) | C12—C13 | 1.388 (5) |
C3—C4 | 1.387 (4) | C13—C14 | 1.386 (4) |
C4—C5 | 1.383 (4) | N2—N3 | 1.352 (3) |
C5—N1 | 1.355 (3) | N3—Ag1i | 2.216 (2) |
C5—C6 | 1.486 (4) | N5—O1 | 1.234 (3) |
C6—N2 | 1.328 (3) | N5—O2 | 1.246 (3) |
C6—N4 | 1.337 (3) | N5—O3B | 1.260 (9) |
C7—N3 | 1.323 (3) | N5—O3A | 1.269 (4) |
C7—C8 | 1.400 (4) | O3A—O3B | 0.806 (10) |
C8—N4 | 1.333 (3) | | |
| | | |
N3i—Ag1—N1 | 168.20 (8) | C11—C12—C13 | 120.1 (3) |
N3i—Ag1—N2 | 121.39 (7) | C14—C13—C12 | 120.1 (3) |
N1—Ag1—N2 | 70.21 (8) | C13—C14—C9 | 120.2 (3) |
N1—C1—C2 | 122.9 (2) | C1—N1—C5 | 117.9 (2) |
C3—C2—C1 | 119.1 (3) | C1—N1—Ag1 | 122.05 (17) |
C2—C3—C4 | 118.7 (3) | C5—N1—Ag1 | 120.01 (17) |
C5—C4—C3 | 119.3 (2) | C6—N2—N3 | 117.5 (2) |
N1—C5—C4 | 122.1 (2) | C6—N2—Ag1 | 115.17 (17) |
N1—C5—C6 | 117.4 (2) | N3—N2—Ag1 | 126.22 (16) |
C4—C5—C6 | 120.5 (2) | C7—N3—N2 | 119.2 (2) |
N2—C6—N4 | 126.0 (2) | C7—N3—Ag1i | 128.10 (18) |
N2—C6—C5 | 116.5 (2) | N2—N3—Ag1i | 112.27 (15) |
N4—C6—C5 | 117.4 (2) | C8—N4—C6 | 116.5 (2) |
N3—C7—C8 | 121.5 (2) | O1—N5—O2 | 122.0 (2) |
N4—C8—C7 | 119.2 (2) | O1—N5—O3B | 109.7 (5) |
N4—C8—C9 | 118.6 (2) | O2—N5—O3B | 123.0 (5) |
C7—C8—C9 | 122.2 (2) | O1—N5—O3A | 119.9 (3) |
C14—C9—C10 | 119.3 (2) | O2—N5—O3A | 116.7 (3) |
C14—C9—C8 | 118.8 (2) | O3B—N5—O3A | 37.2 (4) |
C10—C9—C8 | 121.8 (2) | O3B—O3A—N5 | 70.9 (7) |
C11—C10—C9 | 120.0 (3) | O3A—O3B—N5 | 72.0 (8) |
C12—C11—C10 | 120.4 (3) | | |
Symmetry code: (i) −x+1, −y+1, −z+1. |
Selected bond lengths (Å) and angles (°) for complexes of
1, 1opt, 2 and 2opt with estimated
standard deviations in parentheses top | 1 | 1opt | | 2 | 2opt |
Cu1—N1 | 1.9987 (15) | 2.061 | Ag1—N1 | 2.264 (2) | 2.314 |
Cu1—N2 | 1.9993 (15) | 2.054 | Ag1—N2 | 2.440 (2) | 2.508 |
Cu1—O1 | 1.9962 (13) | 1.994 | Ag1—N3i | 2.216 (2) | 2.281 |
Cu1—O4 | 1.9632 (13) | 1.983 | Ag1—O3A | 2.680 (3) | |
Cu1—O7 | 2.2407 (14) | 2.297 | | | |
| | | | | |
N1—Cu1—O1 | 97.10 (6) | | N1—Ag1—N2 | 70.21 (8) | |
N1—Cu1—O4 | 173.50 (6) | | N1—Ag1—N3i | 168.20 (8) | |
N1—Cu1—O7 | 90.51 (6) | | N2—Ag1—N3i | 121.39 (7) | |
N1—Cu1—N2 | 81.13 (6) | | N1—Ag1—O3A | 85.56 (8) | |
N1—Cu1—O6 | 129.32 (6) | | N2—Ag1—O3A | 153.95 (8) | |
O4—Cu1—O6 | 53.42 (5) | | N3i—Ag1—O3A | 82.70 (9) | |
Symmetry code: (i) -x+1, -y+1, -z+1. |
Hydrogen-bond dimensions (Å, °) in complexes of 1 and 2 topD—H···A | D—H | H···A | D—H···A | D···A |
1 | | | | |
C10—H10···O6i | 0.950 | 2.700 | 158.5 | 3.601 (2) |
C11—H11···O5i | 0.950 | 2.575 | 133.4 | 3.300 (2) |
C12—H12···O3ii | 0.951 | 2.708 | 155.1 | 3.592 (3) |
C14—H14···O2iii | 0.950 | 2.559 | 158.2 | 3.458 (2) |
C4—H4···O2iii | 0.949 | 2.458 | 159.7 | 3.364 (2) |
C2—H2···O5iv | 0.950 | 2.552 | 169.5 | 3.491 (3) |
C16—H16A···O3v | 0.980 | 2.641 | 131.6 | 3.372 (3) |
C15—H15B···O6vi | 0.989 | 2.453 | 161.5 | 3.406 (3) |
O7—H7···O3v | 0.73 (3) | 2.26 (3) | 161 (3) | 2.956 (2) |
O7—H7···O2v | 0.73 (3) | 2.56 (3) | 140 (3) | 3.151 (2) |
| | | | |
2 | | | | |
C12—H12···O2vii | 0.951 | 2.552 | 127.6 | 3.221 (4) |
C3—H3···O2viii | 0.950 | 2.583 | 168.5 | 3.519 (4) |
C3—H3···O1viii | 0.950 | 2.694 | 120.0 | 3.275 (4) |
C2—H2···O1viii | 0.950 | 2.567 | 125.8 | 3.216 (3) |
Symmetry codes: (i) -x+3/2, y-1/2, -z+3/2;
(ii) -x+1, -y+1, -z+1;
(iii) x-1/2, -y+3/2, z-1/2;
(iv) -x+3/2, y+1/2, -z+1/2;
(v) -x+3/2, y-1/2, -z+1/2;
(vi) x, y, z-1;
(vii) x+2, -y+3/2, z+1/2;
(viii) -x-1, y+1/2, -z+1/2. |
π–π stacking interactions dimensions (Å and °) in complexes
1 and 2 top | Centroid–centroid distance | Angle between the planes | Type |
1 | 3.597 | 1.39 | Ph···tz |
| 3.899 | 1.68 | Ph···py |
2 | 3.467 | 7.65 | Ph···tz |
| 3.762 | 9.92 | Ph···py |
The NBO analysis results for the PPTA and complexes 1 and 2.
The values are the total of charge on the similar atoms. The values of
parentheses show the variation of charge on the atoms after coordination top | CPPTA | CEtOH | HPPTA | HEtOH | Npy | N2tz | N3tz | N4tz | NNitrato | ONitrato | OEtOH | Metal |
PPTA | -0.08 | – | +0.25 | – | -0.42 | -0.27 | -0.19 | -0.43 | – | – | – | – |
1opt | -0.04 (+0.04) | -0.35 | +0.24 (-0.01) | +0.27 | -0.53 (-0.11) | -0.33 (-0.06) | -0.15 (+0.04) | -0.50 (-0.07) | +0.69 | -0.46 | -0.81 | +0.99 |
2opt | -0.04 (+0.04) | – | +0.24 (-0.01) | – | -0.57 (-0.15) | -0.33 (-0.06) | -0.31 (-0.12) | -0.51 (-0.08) | +0.69 | -0.52 | – | +0.73 |
HOMO and LUMO orbitals for optimized structures of PPTA and complexes
1 and 2 top | HOMO | LUMO | Total Energy (kcal mol-1) | HOMO/LUMO Gap (kcal mol-1) |
PPTA | (a) | (b) | -475964.38 | 95.83 |
1opt | (c) | (d) | -1048023.67 | 69.52 |
2opt | (e) | (f) | -1486507.12 | 60.81 |
The calculated fitness values for PPTA ligand and complexes 1 and
2 along with doxorubicin top | B-DNAs/Min | BRAF-Kinase | CatB | DNA-Gyrase | HDAC7 | rHA | RNR | TrxR | TS | Top II |
PPTA | 50.98 | 42.95 | 30.71 | 46.72 | 47.71 | 45.62 | 39.13 | 48.79 | 44.85 | 42.10 |
Complex 1 | 61.24 | 54.49 | 32.75 | 54.26 | 50.36 | 56.66 | 45.06 | 58.23 | 50.73 | 50.24 |
Complex 2 | 64.99 | 59.53 | 25.85 | 68.03 | 39.87 | 62.31 | 52.28 | 49.09 | 58.40 | -2.62 |
Doxorubicin | 83.10 | 54.21 | 25.95 | 52.97 | 50.73 | 50.10 | 49.18 | 66.70 | 53.34 | 59.05 |
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